Engineering
Vortex Generator
100%
Vortex
81%
Similarities
57%
Particle Image Velocimetry
47%
Developing Region
35%
Proper Orthogonal Decomposition
33%
Power Spectra
33%
Nonequilibrium
32%
Velocity Field
31%
Turbulence Intensity
27%
Laser Doppler Anemometer
27%
Boundary Layer
27%
Energy Engineering
23%
Parametric Study
22%
Streamwise
22%
Breathing Zone
21%
Laser Doppler Anemometry
20%
Centerline
17%
Natural Convection
16%
Flow Simulation
16%
Axisymmetric
15%
Energy Spectra
15%
Helical Structure
15%
Soap Bubble
14%
Structure Function
14%
Airfoil
14%
Turbulent Kinetic Energy Spectrum
13%
Navier-Stokes Equation
13%
Driven Software
13%
Experimental Observation
13%
Manikin
12%
Energy Cascade
12%
Instantaneous Velocity
11%
Exit Diameter
11%
Turbulent Flow
11%
Advection
11%
Reynolds' Number
11%
Batchelor
11%
Homogeneous Isotropic Turbulence
10%
Velocity Profile
10%
Dead Time
10%
Taylor's Hypothesis
10%
Reynolds-Averaged Navier-Stokes
10%
Fluid Mechanics
10%
Vorticity
10%
Turbulent Boundary Layer
10%
Diffusers
10%
Thermal Manikin
10%
Samplerate
10%
Static Moment
10%
Keyphrases
Vortex Generator
56%
Turbulent Round Jet
30%
Vortex
22%
Turbulence Measurements
20%
Helical Symmetry
17%
Self-similarity
17%
Flow Simulation
16%
Laser Doppler System
16%
Fully Developed
15%
Turbulence
13%
Developing Regions
13%
Stereoscopic Particle Image Velocimetry
13%
Near Stall
12%
Non-equilibrium Turbulence
12%
Induced Flow
11%
Residence Time
10%
Time Weight
10%
Energy Cascade
10%
Power Spectrum Estimation
10%
High Re
10%
Turbulent Velocity
9%
Round Jet
9%
Analytical Model
8%
Power Spectrum
8%
Thick Airfoil
8%
Turbulent Flow
8%
Rectangular Vortex Generators
7%
Boundary Layer
7%
Reliable Simulation
7%
Complex Flow
7%
Static Moment
7%
Turbulent Kinetic Energy Spectra
7%
Wind Tunnel
7%
Velocity Field
7%
Dynamic Range
7%
Rotor
7%
Laser Doppler Anemometer
7%
Span-wise
7%
Particle Image Velocimetry Technique
7%
Kolmogorov
6%
Volumetric Velocimetry
5%
Optics
5%
Incompressible Turbulent Flow
5%
Reynolds Decomposition
5%
Measurement System
5%
Vertex Movement
5%
Normal Propagation
5%
Front-tracking Method
5%
Time Delay
5%
Reynolds-averaged Navier-Stokes Equations
5%